---
title: Model Context Protocol (MCP)
description: Learn how to connect to Model Context Protocol (MCP) servers and use their tools with AI SDK Core.
---

# Model Context Protocol (MCP)

<Note type="warning">
  The MCP tools feature is experimental and may change in the future.
</Note>

The AI SDK supports connecting to [Model Context Protocol (MCP)](https://modelcontextprotocol.io/) servers to access their tools, resources, and prompts.
This enables your AI applications to discover and use capabilities across various services through a standardized interface.

<Note>
  If you're using OpenAI's Responses API, you can also use the built-in
  `openai.tools.mcp` tool, which provides direct MCP server integration without
  needing to convert tools. See the [OpenAI provider
  documentation](/providers/ai-sdk-providers/openai#mcp-tool) for details.
</Note>

## Initializing an MCP Client

We recommend using HTTP transport (like `StreamableHTTPClientTransport`) for production deployments. The stdio transport should only be used for connecting to local servers as it cannot be deployed to production environments.

Create an MCP client using one of the following transport options:

- **HTTP transport (Recommended)**: Either configure HTTP directly via the client using `transport: { type: 'http', ... }`, or use MCP's official TypeScript SDK `StreamableHTTPClientTransport`
- SSE (Server-Sent Events): An alternative HTTP-based transport
- `stdio`: For local development only. Uses standard input/output streams for local MCP servers

### HTTP Transport (Recommended)

For production deployments, we recommend using the HTTP transport. You can configure it directly on the client:

```typescript
import { experimental_createMCPClient as createMCPClient } from '@ai-sdk/mcp';

const mcpClient = await createMCPClient({
  transport: {
    type: 'http',
    url: 'https://your-server.com/mcp',

    // optional: configure HTTP headers
    headers: { Authorization: 'Bearer my-api-key' },

    // optional: provide an OAuth client provider for automatic authorization
    authProvider: myOAuthClientProvider,
  },
});
```

Alternatively, you can use `StreamableHTTPClientTransport` from MCP's official TypeScript SDK:

```typescript
import { experimental_createMCPClient as createMCPClient } from '@ai-sdk/mcp';
import { StreamableHTTPClientTransport } from '@modelcontextprotocol/sdk/client/streamableHttp.js';

const url = new URL('https://your-server.com/mcp');
const mcpClient = await createMCPClient({
  transport: new StreamableHTTPClientTransport(url, {
    sessionId: 'session_123',
  }),
});
```

### SSE Transport

SSE provides an alternative HTTP-based transport option. Configure it with a `type` and `url` property. You can also provide an `authProvider` for OAuth:

```typescript
import { experimental_createMCPClient as createMCPClient } from '@ai-sdk/mcp';

const mcpClient = await createMCPClient({
  transport: {
    type: 'sse',
    url: 'https://my-server.com/sse',

    // optional: configure HTTP headers
    headers: { Authorization: 'Bearer my-api-key' },

    // optional: provide an OAuth client provider for automatic authorization
    authProvider: myOAuthClientProvider,
  },
});
```

### Stdio Transport (Local Servers)

<Note type="warning">
  The stdio transport should only be used for local servers.
</Note>

The Stdio transport can be imported from either the MCP SDK or the AI SDK:

```typescript
import { experimental_createMCPClient as createMCPClient } from '@ai-sdk/mcp';
import { StdioClientTransport } from '@modelcontextprotocol/sdk/client/stdio.js';
// Or use the AI SDK's stdio transport:
// import { Experimental_StdioMCPTransport as StdioClientTransport } from '@ai-sdk/mcp/mcp-stdio';

const mcpClient = await createMCPClient({
  transport: new StdioClientTransport({
    command: 'node',
    args: ['src/stdio/dist/server.js'],
  }),
});
```

### Custom Transport

You can also bring your own transport by implementing the `MCPTransport` interface for specific requirements not covered by the standard transports.

<Note>
  The client returned by the `experimental_createMCPClient` function is a
  lightweight client intended for use in tool conversion. It currently does not
  support all features of the full MCP client, such as: session
  management, resumable streams, and receiving notifications.

Authorization via OAuth is supported when using the AI SDK MCP HTTP or SSE
transports by providing an `authProvider`.

</Note>

### Closing the MCP Client

After initialization, you should close the MCP client based on your usage pattern:

- For short-lived usage (e.g., single requests), close the client when the response is finished
- For long-running clients (e.g., command line apps), keep the client open but ensure it's closed when the application terminates

When streaming responses, you can close the client when the LLM response has finished. For example, when using `streamText`, you should use the `onFinish` callback:

```typescript
const mcpClient = await experimental_createMCPClient({
  // ...
});

const tools = await mcpClient.tools();

const result = await streamText({
  model: __MODEL__,
  tools,
  prompt: 'What is the weather in Brooklyn, New York?',
  onFinish: async () => {
    await mcpClient.close();
  },
});
```

When generating responses without streaming, you can use try/finally or cleanup functions in your framework:

```typescript
let mcpClient: MCPClient | undefined;

try {
  mcpClient = await experimental_createMCPClient({
    // ...
  });
} finally {
  await mcpClient?.close();
}
```

## Using MCP Tools

The client's `tools` method acts as an adapter between MCP tools and AI SDK tools. It supports two approaches for working with tool schemas:

### Schema Discovery

With schema discovery, all tools offered by the server are automatically listed, and input parameter types are inferred based on the schemas provided by the server:

```typescript
const tools = await mcpClient.tools();
```

This approach is simpler to implement and automatically stays in sync with server changes. However, you won't have TypeScript type safety during development, and all tools from the server will be loaded

### Schema Definition

For better type safety and control, you can define the tools and their input schemas explicitly in your client code:

```typescript
import { z } from 'zod';

const tools = await mcpClient.tools({
  schemas: {
    'get-data': {
      inputSchema: z.object({
        query: z.string().describe('The data query'),
        format: z.enum(['json', 'text']).optional(),
      }),
    },
    // For tools with zero inputs, you should use an empty object:
    'tool-with-no-args': {
      inputSchema: z.object({}),
    },
  },
});
```

This approach provides full TypeScript type safety and IDE autocompletion, letting you catch parameter mismatches during development. When you define `schemas`, the client only pulls the explicitly defined tools, keeping your application focused on the tools it needs

## Using MCP Resources

According to the [MCP specification](https://modelcontextprotocol.io/docs/learn/server-concepts#resources), resources are **application-driven** data sources that provide context to the model. Unlike tools (which are model-controlled), your application decides when to fetch and pass resources as context.

The MCP client provides three methods for working with resources:

### Listing Resources

List all available resources from the MCP server:

```typescript
const resources = await mcpClient.listResources();
```

### Reading Resource Contents

Read the contents of a specific resource by its URI:

```typescript
const resourceData = await mcpClient.readResource({
  uri: 'file:///example/document.txt',
});
```

### Listing Resource Templates

Resource templates are dynamic URI patterns that allow flexible queries. List all available templates:

```typescript
const templates = await mcpClient.listResourceTemplates();
```

## Using MCP Prompts

According to the MCP specification, prompts are user-controlled templates that servers expose for clients to list and retrieve with optional arguments.

### Listing Prompts

```typescript
const prompts = await mcpClient.listPrompts();
```

### Getting a Prompt

Retrieve prompt messages, optionally passing arguments defined by the server:

```typescript
const prompt = await mcpClient.getPrompt({
  name: 'code_review',
  arguments: { code: 'function add(a, b) { return a + b; }' },
});
```

## Handling Elicitation Requests

Elicitation is a mechanism where MCP servers can request additional information from the client during tool execution. For example, a server might need user input to complete a registration form or confirmation for a sensitive operation.

<Note type="warning">
  It is up to the client application to handle elicitation requests properly.
  The MCP client simply surfaces these requests from the server to your
  application code.
</Note>

### Enabling Elicitation Support

To enable elicitation, you need to advertise the capability when creating the MCP client:

```typescript
const mcpClient = await experimental_createMCPClient({
  transport: {
    type: 'sse',
    url: 'https://your-server.com/sse',
  },
  capabilities: {
    elicitation: {},
  },
});
```

### Registering an Elicitation Handler

Use the `onElicitationRequest` method to register a handler that will be called when the server requests input:

```typescript
import { ElicitationRequestSchema } from '@ai-sdk/mcp';

mcpClient.onElicitationRequest(ElicitationRequestSchema, async request => {
  // request.params.message: A message describing what input is needed
  // request.params.requestedSchema: JSON schema defining the expected input structure

  // Get input from the user (implement according to your application's needs)
  const userInput = await getInputFromUser(
    request.params.message,
    request.params.requestedSchema,
  );

  // Return the result with one of three actions:
  return {
    action: 'accept', // or 'decline' or 'cancel'
    content: userInput, // only required when action is 'accept'
  };
});
```

### Elicitation Response Actions

Your handler must return an object with an `action` field that can be one of:

- `'accept'`: User provided the requested information. Must include `content` with the data.
- `'decline'`: User chose not to provide the information.
- `'cancel'`: User cancelled the operation entirely.

## Examples

You can see MCP in action in the following examples:

<ExampleLinks
  examples={[
    {
      title: 'Learn to use MCP tools in Node.js',
      link: '/cookbook/node/mcp-tools',
    },
    {
      title: 'Learn to handle MCP elicitation requests in Node.js',
      link: '/cookbook/node/mcp-elicitation',
    },
  ]}
/>
